CN220840914U - Feeding structure of concrete energy-saving production device - Google Patents

Abstract

The utility model discloses a feeding structure of a concrete energy-saving production device, which comprises a support column, wherein the bottom of the support column is provided with a sliding base, the top of the support column far away from the sliding base is connected with two groups of parallel connecting frames, the two groups of connecting frames are fixedly provided with adjusting rails far away from the top of the support column, and the top of the adjusting rails is connected with a blanking box in a sliding manner.

Description

Feeding structure of concrete energy-saving production device

Technical Field

The utility model relates to the technical field of dust collectors, in particular to a feeding structure of a concrete energy-saving production device.

Background

Concrete is used as a material which is used in the building engineering and has huge demand, and when the concrete is produced, raw materials such as you, sand and the like are mixed by stirring in a certain proportion, the stirrer is used in the mixing process, the general size of the stirrer is large, and the position of a feed inlet is difficult to touch, so that a feeding structure for the stirrer is used for assisting the feeding of the work of the stirring frame.

Through retrieving, as chinese patent literature discloses CN214561984U, a concrete energy-saving production device's feeding structure, through setting up a feed box that can height-adjusting, cooperates the conveying subassembly of one side to transport the material to the top of mixer, but still has following defect:

Above-mentioned concrete energy-saving production device's feeding structure, when using, because the different size models of mixer, and the pan feeding mouth position that sets up above also changes to some extent, and current device is inconvenient enough to the use of the stirring of all skew in pan feeding mouth position, can not adjust the horizontal position of feed box, and can not adjust by itself span the width dimension.

Disclosure of utility model

The utility model aims to provide a feeding structure of a concrete energy-saving production device, which solves the problems that the feeding structure cannot be adjusted in the horizontal position of a feeding box and the width of the feeding box cannot be adjusted due to the fact that the feeding hole positions of the stirring machines are changed due to different sizes and types of the stirring machines, and the conventional device is inconvenient to use stirring of all the offset feeding hole positions.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a concrete energy-saving production device's feeding structure, includes the pillar, the bottom of pillar is provided with slide base, the top that slide base was kept away from to the pillar is connected with two sets of parallel arrangement's link, two sets of the link is kept away from the top of pillar all is fixed with the regulation track, the top sliding connection of regulation track has the unloading case, the bottom that the unloading case is close to slide base is provided with the feed opening, the side of pillar is provided with the stock chest, the internally mounted of stock chest has the conveyer belt, the top of conveyer belt is connected with the side of unloading case.

Preferably, the top of pillar is provided with first telescopic link, and sliding connection does between first telescopic link and the link, and the length dimension of first telescopic link is the length dimension of link half.

Preferably, the bottom parallel arrangement of first telescopic link has the second telescopic link, and the second telescopic link sets up in the bottom of link to first telescopic link is close to perpendicular fixed connection between pillar one end and the pillar.

Preferably, a sliding block is arranged at the joint of the side surface of the bottom of the blanking box and the adjusting rail, a strip-shaped structure is convexly arranged on one side surface of the sliding block, which is far away from the blanking box, a sliding groove is formed at the joint of the adjusting rail and the sliding block, and the section shape of the sliding groove is matched with the strip-shaped structure convexly arranged on the sliding block.

Preferably, a motor is arranged in the sliding block, one end of the motor, which is close to the blanking box, is connected with a driving wheel, two groups of rollers are symmetrically arranged on two sides of the motor, a linkage shaft is arranged on one side, which is close to the blanking box, of the rollers, and a driving belt is connected with the outer side of the linkage shaft and the driving wheel.

Preferably, the roller is rotatably connected with the blanking box and the sliding block through the linkage shaft, and the bottom of the roller protrudes out of the bottom of the sliding block and is connected with the adjusting rail.

Preferably, the diameter of the linkage shaft is smaller than that of the driving wheel, and the linkage shaft and the driving wheel are positioned on the same side on the roller and the motor.

Preferably, a sliding strip is arranged at the joint of the adjusting rail and the roller, and the top surface of the sliding strip connected with the roller is an anti-slip coating.

Compared with the prior art, the utility model has the beneficial effects that:

1. Through set up the motor in the slider inside, can drive two sets of gyro wheels on both sides through drive wheel and the drive belt on one side when the motor starts and rotate, just so can let two sets of gyro wheels rotate and drive down the workbin and remove on adjusting the track, carry out the regulation of horizontal direction to the position of unloading case.

2. The distance between the struts on two sides is adjusted by the sliding of the first telescopic rod, the second telescopic rod and the connecting frame of the struts, so that the device can be arranged above the stirrer with different widths, and the blanking box moves on the connecting frame through the adjusting rail to adjust the position of the blanking opening.

Drawings

FIG. 1 is a schematic diagram of a front view of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is a schematic cross-sectional view of a first telescopic rod and a second telescopic rod according to the present utility model;

FIG. 4 is a schematic side cross-sectional view of a slider according to the present utility model;

FIG. 5 is a schematic cross-sectional view of a slider and an adjustment track according to the present utility model.

In the figure: 1. a support post; 101. a sliding base; 102. a first telescopic rod; 103. a second telescopic rod; 2. a connecting frame; 3. a storage tank; 4. a conveyor belt; 5. discharging boxes; 501. a feed opening; 502. a slide block; 503. a motor; 504. a driving wheel; 505. a roller; 506. a linkage shaft; 507. a transmission belt; 6. adjusting the track; 601. a chute; 602. a slide bar.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-5, the utility model provides a feeding structure of a concrete energy-saving production device, which comprises a support column 1, a sliding base 101, a first telescopic rod 102, a second telescopic rod 103, a connecting frame 2, a storage tank 3, a conveyor belt 4, a discharging box 5, a discharging opening 501, a sliding block 502, a motor 503, a driving wheel 504, a roller 505, a linkage shaft 506, a driving belt 507, an adjusting rail 6, a sliding groove 601 and a sliding strip 602, wherein the bottom of the support column 1 is provided with the sliding base 101, the top of the support column 1 is provided with the first telescopic rod 102, the first telescopic rod 102 is in sliding connection with the connecting frame 2, the length of the first telescopic rod 102 is one half of the length of the connecting frame 2, the distance between the support columns 1 can be changed through the sliding between the first telescopic rod 102 and the connecting frame 2, and the device is convenient to be connected above stirring machines with different sizes, the bottom parallel arrangement of first telescopic link 102 has second telescopic link 103, and second telescopic link 103 sets up in the bottom of link 2, and vertical fixed connection between first telescopic link 102 and the pillar 1 near pillar 1 one end, can increase the area of contact with link 2 through first telescopic link 102 and second telescopic link 103, can let pillar 1 more stable when the interval is adjusted, the rocking of device has been avoided, the top that slide base 101 was kept away from to pillar 1 is connected with two sets of parallel arrangement's link 2, the top that slide base 101 was kept away from to two sets of link 2 all is fixed with regulation track 6, the junction of regulation track 6 and gyro wheel 505 is provided with draw runner 602, the top surface that draw runner 602 and gyro wheel 505 are connected is anti-skidding coating, can increase the frictional force of being connected between regulation track 6 and the gyro wheel 505, avoid the skidding of gyro wheel 505.

The top of the adjusting rail 6 is slidably connected with the blanking box 5, a sliding block 502 is arranged at the joint of the bottom side surface of the blanking box 5 and the adjusting rail 6, a strip structure is convexly arranged on one side surface of the sliding block 502, which is far away from the blanking box 5, a sliding groove 601 is formed at the joint of the adjusting rail 6 and the sliding block 502, the section shape of the sliding groove 601 is matched with the protruding strip structure of the sliding block 502, the protruding strip structure of the sliding block 502 can enable the sliding block 502 to move more stably in the sliding groove 601 of the adjusting rail 6, separation between the sliding block 502 and the sliding groove 601 is avoided, a motor 503 is arranged in the sliding block 502, one end of the motor 503, which is close to the blanking box 5, is connected with a driving wheel 504, two groups of rollers 505 are symmetrically arranged on two sides of the motor 503, one side, which is close to the blanking box 5, of the driving wheel 505 is provided with a linkage shaft 506, the linkage shaft 506 is connected with the outer side of the driving wheel 504, the transmission belt 507 can drive the two groups of rollers 505 to rotate together when the motor 503, then the position of the blanking box 5 is adjusted through the rollers 505, the rollers 505 are rotationally connected with the lower box 5 and the sliding block 502 through the linkage shaft 506, the bottom of the sliding block 505 protrudes from the bottom of the sliding block 6, separation between the sliding block 502 and the sliding block 506 is avoided, the bottom of the sliding block 506 is separated from the sliding block 506, the sliding block 506 is separated from the sliding block, and the sliding block is positioned on the sliding block, and is moved, and the sliding block is moved, and is moved by the sliding block, and is moved by the size.

The bottom that the unloading case 5 is close to slide base 101 is provided with feed opening 501, and the side of pillar 1 is provided with stock chest 3, and the internally mounted of stock chest 3 has conveyer belt 4, and the top of conveyer belt 4 is connected with the side of unloading case 5.

When the embodiment of the utility model is used, the following steps are adopted: the position of the blanking box 5 can be adjusted by sliding the sliding block 502 on one side of the blanking box 5 above the adjusting rail 6, the motor 503 is arranged in the sliding block 502, the driving wheel 504 on one side can be driven to rotate when the motor 503 is started, the driving wheel 504 can drive the two groups of rollers 505 on two sides to rotate through the driving belt 507 on the side, the rollers 505 can run on the sliding strip 602 of the adjusting rail 6 when rotating, thereby driving the blanking box 5 to adjust the position on the adjusting rail 6, and when facing to the mixers with different widths, the distance between the supporting columns 1 can be adjusted by sliding the first telescopic rod 102, the second telescopic rod 103 and the connecting frame 2, so that the device can be arranged above the mixers with different widths, and the blanking box 5 can move on the connecting frame 2 through the adjusting rail 6.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. The utility model provides a concrete energy-saving production device's feeding structure, includes pillar (1), its characterized in that: the bottom of pillar (1) is provided with slide base (101), the top that slide base (101) was kept away from to pillar (1) is connected with link (2) of two sets of parallel arrangement, two sets of the top that pillar (1) was kept away from to link (2) all is fixed with regulation track (6), the top sliding connection of regulation track (6) has feed box (5), the bottom that feed box (5) is close to slide base (101) is provided with feed opening (501), the side of pillar (1) is provided with stock chest (3), internally mounted of stock chest (3) has conveyer belt (4), the top of conveyer belt (4) is connected with the side of feed box (5).

2. The feeding structure of the concrete energy-saving production device according to claim 1, wherein: the top of pillar (1) is provided with first telescopic link (102), and sliding connection does between first telescopic link (102) and link (2), and the length dimension of first telescopic link (102) is the length dimension of link (2).

3. The feeding structure of the concrete energy-saving production device according to claim 2, wherein: the bottom parallel arrangement of first telescopic link (102) has second telescopic link (103), and second telescopic link (103) set up in the bottom of link (2) to perpendicular fixed connection between first telescopic link (102) one end that is close to pillar (1) and pillar (1).

4. The feeding structure of the concrete energy-saving production device according to claim 1, wherein: the feeding box is characterized in that a sliding block (502) is arranged at the joint of the side surface of the bottom of the feeding box (5) and the adjusting rail (6), a strip-shaped structure is arranged on one side surface, far away from the feeding box (5), of the sliding block (502) in a protruding mode, a sliding groove (601) is formed in the joint of the adjusting rail (6) and the sliding block (502), and the section shape of the sliding groove (601) is matched with that of the sliding block (502) in a protruding mode.

5. The feeding structure of the concrete energy-saving production device according to claim 4, wherein: the inside of slider (502) is provided with motor (503), the one end that motor (503) is close to unloading case (5) is connected with drive wheel (504), the bilateral symmetry of motor (503) is provided with two sets of gyro wheels (505), one side that gyro wheel (505) is close to unloading case (5) is provided with universal driving shaft (506), the outside of universal driving shaft (506) and drive wheel (504) is connected with drive belt (507).

6. The feeding structure of the concrete energy-saving production device according to claim 5, wherein: the roller (505) is rotationally connected with the blanking box (5) and the sliding block (502) through the linkage shaft (506), and the bottom of the roller (505) protrudes out of the bottom of the sliding block (502) and is connected with the adjusting track (6).

7. The feeding structure of the concrete energy-saving production device according to claim 5, wherein: the diameter size of the linkage shaft (506) is smaller than that of the driving wheel (504), and the linkage shaft (506) and the driving wheel (504) are positioned on the same side on the roller (505) and the motor (503).

8. The feeding structure of the concrete energy-saving production device according to claim 5, wherein: a slide bar (602) is arranged at the joint of the adjusting track (6) and the roller (505), and the top surface of the slide bar (602) connected with the roller (505) is an anti-slip coating.